First Light for Airborne Observatory

Ames Research Center News Release

2004 September 9

For the first time, scientists have peered at the stars using the newly
installed telescope aboard NASA's Stratospheric Observatory for Infrared
Astronomy (SOFIA), the largest airborne observatory in the world.

During the night of Aug. 18-19 in its first 'on-sky test,' the telescope was
pointed at the star Polaris. A crisp white dot appeared on astronomers'
computer screens inside the aircraft, demonstrating that the telescope's basic
optical, mechanical and software systems all are functioning properly.

"This is an important milestone from an engineering perspective, because all
the telescope subsystems have been integrated on the aircraft for the first
time, and it substantiates all the engineering design and interface work
performed on both sides of the Atlantic," said Kaiser Adeni of NASA Ames
Research Center and NASA's deputy chief engineer for the SOFIA Project.

"Our first look at a star shows that the most basic requirements for observing
with SOFIA have been met," said Dr. Ted Dunham, an instrument scientist at the
Lowell Observatory, Flagstaff, Ariz., and principal investigator for SOFIA's
High-speed Imaging Photometer for Occultations (HIPO) team.

While it was not designed to conduct any airborne science observations, the
test did provide a team of SOFIA scientists and engineers on the ground with an
opportunity to calibrate the telescope and the newly installed HIPO, the first
scientific instrument aboard SOFIA. Scientists plan to conduct ground-based
observations of the sky aboard SOFIA for the next three weeks.

"This is more than a fantastic milestone for the observatory," said Dr. Eric
Becklin, chief scientist for SOFIA's prime contractor, Universities Space
Research Association (USRA), Columbia, Md. "It also demonstrates the ability
and teamwork of all the major participants in the project."

Flying at altitudes above 40,000 feet, SOFIA will help astronomers learn more
about the birth of stars, the formation of solar systems, the origin of complex
molecules in space, the nature and evolution of comets, how galaxies change
with time and even the nature of the mysterious black holes lying at the
centers of some galaxies, including our own.

Scientists use HIPO to provide high-speed, time-resolved imaging photometry at
two optical wavelengths. HIPO has a flexible optical system and numerous
readout modes, which allow many specialized observations to be made. The
primary function of HIPO is to observe stellar occultations. During a stellar
occultation, a star serves as a small probe of the atmospheric structure of a
solar system object, or the surface density structure of a planetary ring or
comet.

During observations over the next few weeks, the integration team hopes to
calibrate SOFIA's telescope subsystems using HIPO and see if there are any
distortions in the airborne observatory's telescope.

"Installation of HIPO is the final building block in the functional integration
process that has taken approximately five months," Adeni said. "Now, over the
next few weeks, we need to characterize the behavior and performance of the
telescope and make sure everything is working the way it is supposed to."

NASA awarded a $484.2 million contract to USRA in December 1996 to acquire,
develop and operate SOFIA. Other team members include L-3 Communications
Integrated Systems; Evergreen Airlines; the University of California, Los
Angeles, Berkeley and Santa Cruz, Calif.; the Astronomical Society of the
Pacific, San Francisco; and the SETI Institute, Mountain View, Calif.

SOFIA's telescope assembly, a 98.4-inch (2.5 meter) aperture-diameter
telescope, was developed by DLR, the German Aerospace Center, located in Bonn.
MAN Technologies AG, Mainz and Augsburg, Germany, built the telescope. Its
optics and tracking system were supplied by Kayser-Threde Corp., Munich,
Germany. Several other sub-contractors located in Europe also helped fabricate
the complex telescope. The telescope assembly was delivered to L-3
Communications in September 2002.

SOFIA will be based at NASA Ames Research Center in California's Silicon
Valley. Scientific management of the observatory operations will be conducted
for NASA by USRA. Evergreen Airlines will be responsible for maintenance and
flight operations.